About Wood

What is wood?Wood comes from the trunk (main stem) of trees. A tree's stem serves two main purposes: To support the branches, leaves and flowers of the tree, holding these firmly, even against the buffeting of wind and storms.

To transport water, sugar and other food nutrients from the roots, to and from the leaves, as well as to other living areas of the tree. The cross-section of a tree trunk is made up of four principal layers. The outer-most section is a ring of bark made up of two layers: an outer layer of dead corky material, the outer bark, and an inner layer of live bark, the phloem.The outer layer is made up of epidermal cells that protect the stem from damage and from drying out.The phloem contains cells which form tall and thin tubes, like capillaries, which transport the sugars and other materials made in the leaves to all the other living cells in the tree.The next layer is the cambium, which usually feels slimy in a freshly cut stem. This thin layer is made of cells which produce phloem and xylem, the next layer of the stem. The cambium is the only place in a stem where new growth takes place, and it's cells are constantly dividing to form new wood and new bark. As a result of the continual division of cells, the cambium layer slowly moves outwards as the tree increases in girth. As the tree expands in girth, the outer bark periodically splits or is shed and is replaced by the new outer layer.The innermost layer of a stem is the xylem. Living xylem cells carry water and minerals from the roots to the leaves. Dead xylem cells make up heartwood which is the tissue (group of cells) in the centre of the stemDifferent kinds of wood in a treeTwo kinds of wood are found in mature trees. The central part of cross-section of wood, usually the bulk of the cross-section, is the heartwood. Around the heartwood, in a broad ring, lies the sapwood. It is paler in colour compared to the heartwood and is often whitish or cream coloured. Heartwood consists of dead material. It helps support the tree and has no role in the growth of the tree.Sapwood, on the other hand, is made up of living cells that carry water and nutrients upwards from the roots. It is this water and nutrient mixture that makes up a tree's sap. New sapwood is formed by cambium cells as a tree grows. As new sapwood is formed the inner-most sapwood cells die and become heartwood. These cells slowly fill with tannins, resins and other substances, making the wood darker in colour and more resistant to decay and insect attack. The vessels that these cells form eventually become blocked and unable to carry sap.Annual rings Trees that experience an annual growth pattern of slow and rapid growth rates are characterised by annual rings. Each year represents one year's growth. Annual rings are found in most trees that come from Europe and North America. By counting the number of annual rings, it is possible to determine a trees age.In Australia most native trees do not have annual rings, though a few, like the snow gum, alpine ash and red cedar, do have visible annual rings. It is therefore difficult to readily tell the age of most Australian native trees.Growth rings are a feature of trees that grow in climates where growth virtually ceases for part of the year, such as during cold winter months. In spring, when these trees burst into growth, wood is formed relatively rapidly and these earlywood cells tend to be large and thin-walled. Later in the season, as tree growth slows, the cells become smaller and thicker-walled. The larger thin-walled cells tend to be paler in colour than the smaller thick-walled cells. An annual ring is made up of these two layers - the layers of thin- and thick-walled cells.Other wood cells Among the other types of cells that occur in wood are ray cells. These store food in the stem and are found in all timbers. Unlike the other cells of sapwood which are arranged vertically, ray cells are arranged horizontally, extending radially outwards towards the bark. These cells give wood a distinctive sheen when it is radially split.

Often rays are only one cell wide and several cells high and quite difficult to see without a magnifying lens. However, in some trees the rays are very large and give the wood characteristic patterns, such as the patterns seen in oaks, and other timbers like silky oak and she-oak.Properties of wood Although the wood of all trees consists essentially of cellulose fibres held together by lignin, different trees produce woods with many different properties that make them suitable for different purposes.The density of wood depends on the thickness of the fibre walls in relation to the size of the cells' hollow centre. Light timbers (like balsa) have cells with very thin walls and a large hollow, while in contrast, dense timbers (like ironbark) have cells with thick walls and a narrow hollow.The colour of wood is determined by various substances, such as polyphenols, which are deposited in the cell walls. In most woods the heartwood is distinctively coloured, commonly red, pink, brown or yellow and sometimes even green and purple. While heartwood is usually evenly coloured, in some woods the colour is unevenly distributed, giving a streaky appearance that can be highly decorative (like walnut, for example). Some woods have pale coloured heartwood not easily distinguished from sapwood.

The figure or pattern of wood is the ornamental appearance produced by the interaction of such features as colour; the arrangement of the vessels, latewood and earlywood; and so on.

Other properties vary considerably between species and may have an important bearing on the way the timber is used. These properties include shrinkage as the wood dries; fibre length (important when wood is used for paper making); hardness or resistance to marking; durability against attack by insects, fungi and other agents; strength properties, that can vary markedly between seasoned wood (wood that has been dried) and green wood (wood with a high moisture content, such as wood just cut from a living tree); and flexibility. Uses of wood Wood is used in many ways. The way we use wood depends on the type and quality of wood and the tree that produced the wood.Major timber speciesWell over 100 different species of trees growing in State forests of New South Wales are used to provide timber. Other species are imported into New South Wales from other States and from overseas.A few of the most important tree species grown in New South Wales are: · Blackbutt (Eucalyptus pilularis) - is an important native hardwood grown in coastal districts. It produces pored hardwood timber, light brown in colour and coarse in texture. The basic density of the timber is 720 kg/m3. The timber is hard, strong and tough, making it a durable timber used for general building construction, flooring, poles and railway sleepers.

· Brush boxes (Lophostemon confertus) - is a tree species that grows on the north coast and ranges. The timber is pored; pinkish-brown in colour and fine textured, often with a curly interlocked grain. The basic density of the timber is 690 kg/m3. The timber has very good wearing qualities, making it moderately durable, and is particularly used where resistance to wear is needed, such as industrial flooring, bridge decking and outdoor verandas. The timber's decorative appearance also leads to its use in flooring and feature walls.

· Radiata pine (Pinus radiata) - is an introduced (exotic) tree species originating from California. It is widely planted in tableland area of south-eastern Australia, in particular the southern tablelands of New South Wales. It is currently the most important single softwood species in the State. It produces a non- pored softwood timber, pale to light brown in colour, with marked annual rings. The basic density of the timber is 380-480 kg/m3. The timber is easy to work, making it a timber with low natural durability. It is used for joinery, flooring, panelling, building frame-work, packaging, paper pulp and particleboard manufacture.

· Silvertop ash (Eucalyptus sieberi) - is a native hardwood species that grows from the central coast through to the south coast of the State. It produces a pored timber, light brown in colour with distinct growth rings. The basic density of the timber is 670 kg/m3. The timber is moderately durable, used for general construction, flooring and handles. This species forms the basis of the woodchip export project based in Eden, on the southeast coast of New South Wales. These woodchips provide the raw material for offshore paper manufacture.

· Sydney blue gum (Eucalyptus saligna) - is another hardwood species that grows in coastal districts of New South Wales. It produces a pored timber, pink to red in colour and with a coarse texture. The basic density of the timber is 690 kg/m3. The timber is easy to work, moderately durable and strong, making it suitable for use in general construction, flooring, weatherboards and panelling.

· Tallowwood (Eucalyptus microcorys) - is another native hardwood species that grows on the north coast and ranges. It produces a pored timber, yellow-brown in colour with a greenish tinge, a coarse texture and a greasy feel. The basic density of the timber is 800 kg/m3. The timber is strong and very durable, and is used for heavy construction, poles, sleepers and flooring weatherboards. · White cypress pine (Callitris glauca) - is a native softwood grown in the western districts. The timber is non-pored, streaky yellow to dark brown in colour with numerous dark knots. It has a distinctive scent and fine texture. The basic density of the timber is 590 kg/m3. The timber is rather brittle and very durable, however it is not one of the stronger timbers produced by native species. It is used in flooring, weatherboards, panelling, building framework and poles. Flooded gum is just one of the important native species planted in hardwood plantations in NSW. Points to ponder 1. Why are the terms softwood and hardwood not really appropriate when used to describe different types of timber? 2. A large part of the world's timber trade and use of wood is based on conifers (softwood). Why do you think this is the case? 3. In parts of the Northern Hemisphere, wood from historic and archaeological sites has proved valuable in providing information about climate patterns of many centuries ago. How can wood provide information about climate patterns, in particular changes in climate patterns? 4. The sapwood of some trees is treated with preservatives before being used for some purposes. Why? Heartwood does not need to be treated. Why?